Validity of the point source assumption of a rotor for farfield acoustic measurements with and without shielding

Turkdogru, Nurkan

15 November 2010

Measuring the farfield noise levels of full-scale rotor systems is not trivial and can be costly. Researchers prefer to perform small-scale experiments in the laboratory so that they can extrapolate the model scaled results to the larger scale. Typically Inverse Square Law (ISL) is used to extrapolate the sound pressure levels (SPL), obtained from model-scale experiments at relatively small distances to predict noise at much larger distances for larger scale systems. The assumption underlying this extrapolation is that the source itself can be treated as a point sound source. At what distance from a rotor system it can be treated as a point source has never been established. Likewise, many theoretical models of shielding by hard surfaces assume the source to be a point monopole source. If one is interested in shielding the noise of a rotor system by interposing a hard surface between the rotor and the observer, can the rotor system really be considered to be a monopole? If rotating noise sources are under consideration what is the effect of configuration and design parameters? Exploring the validity of point source assumption alluded to above for a rotor for farfield acoustic measurements with and without shielding form the backbone of the present work.

Propeller noise

Shielding

Geometric far field

Aeroacoustics

Ducted rotor noise

Noise Measurement

Noise control

Detection and coding techniques for partial response channels /

Dorfman, Vladimir,

January 2003

Thesis (Ph. D.)--University of California, San Diego, 2003. / Vita. Includes bibliographical references.

A review of policy tools for noise control in Hong Kong: the case of construction industry

Wong, Chor-kuen., 王楚權.

January 2005

published_or_final_version / Public Administration / Master / Master of Public Administration

The independent quadratic optimisation algorithm for the active control of noise and vibration / Neil C. Mackenzie.

Mackenzie, Neil C.

January 1996

Bibliography: leaves 260-282. / viii, 312 leaves : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This thesis develops an alternative control strategy, for active noise and vibration control systems, that does not require identification of the cancellation path transfer function. The Independent Quadratic Optimisation algorithm, developed in this work, is meant to optimise the coefficients of the control filter independently. / Thesis (Ph.D.)--University of Adelaide, Dept. of Mechanical Engineering, 1997?

Noise control Mathematical models.

Vibration Mathematical models.

Mathematical optimization.

Control theory.

A fundamental study of active noise control system design / Scott D. Snyder

Snyder, Scott D.

January 1991

Includes bibliographical references (leaves 287-305) / 310 leaves : ill ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Mechanical Engineering, 1991

620.23 20

Noise control Mathematical models.

Air ducts Noise.

Machinery Noise.

A study of the production, character, and abatement of noise in pneumatic percussive drills.

Beiers, John Leonard.

Unknown Date

No description available.

Rock-drills.

Pneumatic tools.

Noise.

A study of the production, character, and abatement of noise in pneumatic percussive drills.

Beiers, John Leonard.

Unknown Date

No description available.

Rock-drills.

Pneumatic tools.

Noise.

A study of the production, character, and abatement of noise in pneumatic percussive drills.

Beiers, John Leonard.

Unknown Date

No description available.

0913 Mechanical Engineering

Rock-drills.

Pneumatic tools.

Noise.

A study of the production, character, and abatement of noise in pneumatic percussive drills.

Beiers, John Leonard.

Unknown Date

No description available.

0913 Mechanical Engineering

Rock-drills.

Pneumatic tools.

Noise.

Active control of fan noise and vortex shedding

Wong, Yee-Jun

January 2005

[Truncated abstract] The subject of fan noise generating mechanisms and its control has been studied intensively over the past few decades as a result of the ever-increasing demand for more powerful fans. A unique feature of fan noise is that it consists of high-level discrete frequency noise related to the blade passing frequency, and low-level broadband noise due mostly to turbulent airflow around the fan. Of the two types of fan noise, the discrete frequency noise is the more psychologically annoying component. Past research into fan noise has shown that the discrete frequency fan noise are dipole in nature and are caused predominantly by the fluctuating lift acting on the surfaces of the fan blades. Based on this, several theoretical models have been established to correlate these fluctuating lift forces to the far-field sound pressure. However, one general assumption in these models is that the fan blades are assumed rigid, and the consequence of such an assumption is that it is unclear if the far-field sound pressure is caused solely by the aerodynamic lift force, or whether the blade vibration also plays a substantial role in the generation of the far-field fan noise. One of the goal of this thesis was thus to experimentally quantify the contribution of blade vibration to far-field fan noise and it was found that blade vibration, whilst coherent with the far-field fan noise, did not contribute significantly. Aside of this, several experiments aimed at filling knowledge gaps in the understanding of fan noise characteristics were also be conducted, in particular, to understand the relationship between far-field sound pressure level to blade lengths as well as the number of blades on the fan. The experiments showed that for fans with many blades, the dependency of the far-field sound pressure on blade length is stronger than fans with less blades. Furthermore, dipole measurements showed that the dipole characteristics of fan noise does not occur only at the discrete frequencies, but also within a range of broadband frequencies, implying that the source for both discrete and broadband is the same. The second section of this thesis deals with the study of vortex shedding and its active control. When a circular cylinder (or any object) is placed in a flow within a specified Reynolds number range, flow separation and periodical wake motion is formed behind the cylinder, which is known as vortex shedding. It has been found in previous research that this wake motion is affected by acoustic field imposed on it via loudspeakers. This suggests that there is a strong acoustic-vortex relationship. However, little of this relationship is understood as conventional methods of studying vortex centre around the use of hot-wire anemometry, which effectively measures the velocity fluctuation in the flow. This thesis is the first in using a microphone to study the acoustic characteristic of the vortex wake, and experimental results shows that the two parallel shear layers of the wake carry the strongest pressure signals at the vortex shedding frequency, whilst the entrapped region between the layers carries the strongest pressure signals at the first harmonic.

Fans (Machinery) -- Noise

Vortex-motion

Fan noise

Vortex shedding

Active noise control